蚯蚓-稻壳炭联合堆肥对工业污泥中重金属的影响研究

蚯蚓堆肥相关研究多集中在生活污泥方面,对工业污泥的探索较少。该研究以马鞍山某钢铁污水处理站污泥为例,添加不同比例稻壳炭(2%、4%、8%),设置污泥单独堆肥、稻壳炭与污泥堆肥以及蚯蚓-稻壳炭联合污泥堆肥试验,探索蚯蚓与稻壳炭联合堆肥对工业污泥中重金属形态和生物有效性的影响。研究表明,(1)相比污泥单独堆肥,稻壳炭联合污泥堆肥能增加污泥pH、EC、TP和降低TOC、TN,而蚯蚓联合稻壳炭堆肥污泥可增加TN,并进一步增加污泥EC、TP,显著降低污泥的pH、TOC。(2)稻壳炭堆肥中重金属Zn、Cu、Pb、Cd含量因浓缩效应而上升;而蚯蚓联合稻壳炭堆肥,重金属含量显著下降,添加4%稻壳炭时,重金属Zn、Cu、Pb、Cd质量分数达到最小值,分别为856.64、137.10、158.92、15.48mg·kg-1。(3)重金属形态分析表明,随着稻壳炭比例增加,稻壳炭堆肥中重金属Zn、Cu、Pb、Cd的交换态和碳酸盐结合态转化为残渣态及铁锰氧化态的比例增大,添加8%稻壳炭时DTPA提取的有效态重金属质量分数最低,分别为705.72、47.95、50.43、4.47 mg·kg-1;蚯蚓-稻壳炭联合堆肥会使得污泥中重金属交换态、碳酸盐结合态、铁锰结合态和有机结合态均向残渣态转化,添加4%稻壳炭与蚯蚓的协同转化能力最大,Zn、Cu、Pb、Cd有效态重金属质量分数分别为629.84、38.63、36.76、1.63mg·kg-1,说明稻壳炭添加入蚯蚓堆肥可进一步降低工业污泥中重金属有效性,使重金属钝化。本研究可为稻壳炭联合蚯蚓堆肥处理工业污泥提供参考和科学依据。     

不同来源重金属污染的土壤对水稻的影响

采用人工污染土壤、尾矿砂、污泥等不同载体的污染源来模拟土壤污染 ,研究其对水稻生长、吸收养分和吸收重金属的影响。结果表明 ,不同污染载体对水稻生长的影响不同 ,其影响的大小顺序为人工污染土壤 >尾矿砂 >污泥 >尾矿砂 +污泥。不同污染载体对水稻吸收重金属的影响亦不同 ,以纯化学试剂的形式添加到土壤中的重金属最易被提取出来 ,植物从中吸收的Cu、Zn、Pb、Cd最多 ,而从以污泥为污染载体的土壤中吸收的Zn、Pb、Cd最少。研究表明 ,用添加纯化学试剂的方法来模拟污染土壤对生态与环境的影响是可行的 ,确定土壤负载容量是安全的 ,因为在实验条件下它对供试植物的影响最明显     

Heavy metals from soil and domestic sewage sludge and their transfer to Sorghum plants

We studied the mobility and transport of heavy metals such as Cu, Zn, As, Cd, Cr, Ni, and Pb, from soil and soil amended with sewage sludge to sorghum plants. The total and ethylenediaminetetraacetic acid (EDTA) extractable heavy metals in agricultural soil and untreated domestic sewage sludge (DWS) samples were determined. The correlation between the total and extractable metals in soil and sewage sludge was investigated. The total and extractable heavy metals in soil, sewage sludge and sorghum grain were analysed by flame and electro thermal atomic absorption spectrometer (FAAS/ETAAS), after digestion in microwave oven. Statistically good correlations were obtained between the total contents of all heavy metals and their respective extractable fractions in soil and domestic wastewater sludge. Transfer factors of all heavy metals from domestic sewage sludge to sorghum grains were determined.     

4种鸢尾属植物对铅锌矿区土壤中重金属的富集特征和修复潜力

通过野外调查和实地修复铅锌矿污染土壤试验,研究了铅锌矿区排污渠污水及底泥中Pb、Zn、Cu、Cd含量和分布特征以及4种鸢尾属植物马蔺（Iris lactea var.chinensis）、黄菖蒲（Iris pseudacorus L.）、溪荪（Iris sanguinea Donn ex Horn.）、花菖蒲（Iris ensata Thunb.）对Pb、Zn、Cu、Cd的积累能力和土壤修复效率差异。结果表明,离污染源越近,重金属污染越严重。Pb、Zn、Cu、Cd4种重金属均大部分沉积在排污水渠的底泥中,污水中Pb严重污染,超标达120倍,底泥中Pb、Zn、Cu、Cd质量分数分别超标1.5倍、1.7倍、1.6倍和1.7倍。排污渠岸土壤Pb、Zn、Cu、Cd质量分数也明显超过了国家规定的土壤环境质量Ⅱ级标准1～5倍。种植4种鸢尾属植物后,土壤中Pb、Zn、Cu、Cd质量分数有所降低。其中,种植马蔺1个月后土壤Pb、Cu、Cd修复效率分别为8.13%、2.45%和22.3%。黄菖蒲和花菖蒲对Zn的修复效率相对较高。4种鸢尾属植物中马蔺对Pb、Cd的吸收能力最强,马蔺地上部（叶、茎）Pb质量分数达983mg·kg-1,且转运系数大于1,是一种潜在的Pb积累植物,黄菖蒲、溪荪和花菖蒲对Zn的吸收能力较强,且吸收的重金属主要积累在根系。     

可控湿法氧化聚沉工艺对城市污泥中重金属的稳定化影响

采集了长沙市污水厂的剩余污泥（S1）和湿法氧化聚沉工艺处理的深度脱水污泥（S2）,对比分析了处理前后污泥的形貌变化及重金属Zn、Cu、Pb、Cd、Hg和As的形态分布,初步探讨了重金属稳定化机理,对脱水污泥中重金属Zn、Cu、Pb、Cd、Hg和As进行了稳定性评估.结果表明,脱水污泥中重金属的总量均低于我国污泥农用标准中的酸性限值,符合B级污泥泥质要求.处理后,污泥中Zn、Cu、Pb、Cd、Hg和As主要以硫化物有机结合态和残渣态（稳定态）存在,不稳定态在不同程度上向稳定态发生了转变,Cu、Hg的增幅最大,达21.1%.S2中重金属的生物可利用性较S1都有显著的降低,平均降幅达73.1%,S2中重金属的生物可利用性顺序为：Zn〉Pb〉Cu〉Cd〉As〉Hg.污泥经过湿法氧化聚沉工艺处理后,污泥中重金属Zn、Cu、Pb、Cd、Hg和As得到了明显的稳定化,为污泥后续资源化、安全化提供了科学依据.     

The correlation of total and extractable heavy metals from soil and domestic sewage sludge and their transfer to maize ( Zea mays L.) plants

A study to understand the mobility and transport of heavy metals (HMs) from soil and soil amended with sewage sludge to maize plants was carried out. The total and ethylenediaminetetraaceticacid (EDTA)-extractable HMs in agricultural soil and untreated domestic sewage sludge samples, and the correlation between the total and extractable metals in soil and sewage sludge were carried out. Pot experiments were performed to study the transfer of HMs to maize grains, grown in soil (control) and in soil amended with sewage sludge (test samples). The total and extractable HMs in soil, sewage sludge, and maize grains were analysed by FAAS/ETAAS (flame atomic absorption spectrometer/electrothermal atomic absorption spectrometer) after digestion in microwave oven. Statistically significant correlations were obtained between the total contents of Cu, Cd, As and their respective extractable fractions in soil, while in domestic wastewater sludge (DWS) the better correlation was observed only for Ni and Cd. The edible part of maize plants (grains) from test samples presented high concentration of Zn, Pb, Ni, Cd, Cu, As, and Cr concentrations (80.7–85.6, 3.8–3.95, 2.35–2.5, 0.75–0.82, 3.21–3.29, 0.23–0.27, and 0.22–0.29?mg?kg^?1, respectively). Good correlations were found between metals in exchangeable fractions of both soil and DWS and total metals in control and test samples of maize grains. The transfer factor of all HMs from DWS to maize grains was also determined.     

Eco-friendly approach for leaching out heavy metals from sewage sludge

Sewage sludge contains rich organic matter and nutrients essential for the growth of plants but the presence of toxic heavy metals restricts its land application. To overcome this, the study aims an eco-friendly approach for leaching out heavy metals. Sewage sludge from sewage treatment plant, Chennai, India was characterised. The analysis of total heavy metal concentration was done by digesting in nitric acid and different forms were extracted by community bureau of reference sequential method. Heavy metals: As, Cd, Cr, Cr, Ni, Pb and Zn were determined using inductively coupled plasma optical emission spectrometry Perkin Elmer Optima 5300 DV. The experimental set-up for heavy metal leaching was held for five consecutive days at different concentrations of humic acid (0.1%, 0.5% and 1%) at varied pH (5–9). Results revealed that at the end of fifth day at pH 8, 1% humic acid is capable of leaching out 75.5% cadmium, 66.0% nickel, 52.0% lead, 51.2% zinc, 31.2% copper and 8.5% cadmium from sewage sludge. Statistically positive correlation (0.7088) existed between the percentage of heavy metals leached out and the sum of soluble and reducible fractions. Thus, from ecological point of view, humic acid can be used to leach out heavy metals from sewage sludge serving the need in restoration of soil fertility upon land application.     

天津污灌区土壤重金属污染环境质量与环境效应

污水作为天津解决农业用水不足的手段已经有几十年的历史。文章分析了污灌区土壤一作物系统中Cd、Hg、As、Cu、Pb、Zn和Cr等有毒重金属的质量分数，利用单因子污染指数法和加权综合污染指数法进行污染评价。评价结果表明污灌区土壤受到了严重污染，主要重金属污染元素为Cd、Hg；农作物中的主要超标元素为Cd、As。因此，污灌区重金属污染土壤的修复工作迫在眉睫。     

The uptake and translocation of selected elements by cole (Brassica) grown using oasis soils in pot experiments

Pot experiments were conducted on cole (Brassica) grown in soils jointly treated with traces of two heavy metals cadmium (Cd) and zinc (Zn). As the concentration of heavy metals in the soil increased, the uptake of these metals by the plants rose. However, the ratio of heavy metal concentration in soil to uptake by plants increased at a slower rate. Bioavailability of heavy metals considered between the roots and soil using non-linear regressions was shown to be statistically significant. Similarly, the bioavailability of these two heavy metals between leaves and roots using a linear regression was also statistically significant. The bioconcentration factors (BCFs) for Cd and Zn were 0.282 and 4.289, respectively. Significant variation of BCF with the heavy metal bioavailability in soil was noted from non-linear models. The transfer factors (TFs) were 4.49 for Cd and 1.39 for Zn. The Zn concentration in leaves under all treatments did not exceed threshold set standards, but Cd levels exceeded these standards when the concentration of Cd in the soil was more than 1.92 mg kg^?1 dry weight (dw). Data indicate that cole (Brassica) is not a suitable crop for oasis soils because of plant contamination with heavy metals, especially Cd.     

Co-pyrolysis of sludge and kaolin/zeolite in a rotary kiln: Analysis of stabilizing heavy metals

• Adding kaolin/zeolite promotes the formation of stable heavy metals. • The potential ecological risk index of co-pyrolysis biochar is extremely low. • Increasing the pyrolysis temperature reduces the leaching toxicity of heavy metals. • The toxicity of biochar reduces with the increasing content of stable heavy metals. Pyrolysis is a promising technique used for treating of sewage sludge. However, the application of pyrolysis products is limited due to the presence of heavy metals. In this study, sewage sludge mixed with kaolin/zeolite was pyrolyzed in a rotary kiln, aiming to improve the immobilization of heavy metals in pyrolytic carbon. The total concentrations, speciation distributions, leaching toxicities, and potential ecological risk indices of heavy metals in pyrolysis biochar were explored to examine the effects of kaolin/zeolite and pyrolytic temperature on immobilizing heavy metals. Further, mineral composition and surface morphology of biochar were characterized by X-ray diffraction and scanning electron microscopy to reveal the potential mechanism of immobilizing heavy metals. Increasing pyrolysis temperature facilitated the stabilization of heavy metals in pyrolysis biochar. The proportions of stable heavy metals in biochar obtained at 650℃ were 54.50% (Cu), 29.73% (Zn), 79.29% (Cd), 68.17% (Pb) and 86.70% (Cr). Compared to sewage sludge, the potential contamination risk index of pyrolysis biochar obtained at 650℃ was reduced to 17.01, indicating a low ecological risk. The addition of 7% kaolin/zeolite further reduced the risk index of co-pyrolysis biochar prepared at 650℃ to 10.86/15.28. The characterization of biochar revealed that increase in the pyrolysis temperature and incorporation of additives are conducive to the formation of stable heavy metal-inorganics. This study demonstrates that the formation of stable mineral compounds containing heavy metals is the key to stabilizing heavy metals in pyrolysis biochar.     

螯合剂和AM菌根对玉米吸收重金属及重金属化学形态的影响

通过温室根箱盆栽试验研究4种螯合剂EDTA、EDDS、AES和IDSA与AM菌根单一或联合对植物吸收重金属的影响,并通过改进的BCR三步法分析了玉米Zea mays L.菌根根际重金属的化学形态变化。AES和IDSA处理显著提高了玉米地上部重金属的吸收,对Cd、Cu的作用最为显著,Cd质量分数是对照的6.2倍和6.3倍,Cu质量分数是对照的21.8倍和7.7倍。AM＆amp;EDDS处理Cd的质量分数是EDDS处理的6.4倍,较单一AM处理增加了120.7%;AM＆amp;AES处理的Pb质量分数较之AES处理增加了71.5%,AM＆amp;IDSA较之IDSA处理亦增加了32.0%。AM＆amp;AES、AM＆amp;IDSA处理较之单一AM处理,Zn质量分数增加了134.1%和21.8%,Cu质量分数前者是后者的8.4倍和3.3倍,Pb质量分数前者是后者的11.9倍和8.7倍。添加螯合剂处理较之对照亦显著提高了玉米根部重金属的质量分数（P＆lt;0.05）,其中EDTA处理Pb质量分数是对照的5.0倍,AES和IDSA处理Cu质量分数增加了229.1%和131.0%。AM与螯合剂联合处理后,玉米根部Cd质量分数较之单一螯合剂处理降低,与地上部呈相反趋势;AM＆amp;EDDS处理较之EDDS处理,Zn质量分数增加了48.6%,AM＆amp;AES与AES处理对比亦增加了24.6%;AM＆amp;EDTA、AM＆amp;EDDS和AM＆amp;AES较之AM处理玉米根部Zn质量分数分别增加了70.0%、90.9%和51.3%,Cu质量分数前者是后者的2.6倍、1.8倍、4.0倍, Pb质量分数前者是后者的4.5倍、4.2倍和2.8倍。AM处理下根际土壤Zn、Cu、Pb结合态相对含量明显高于非根际。结果表明,新型螯合剂AES和IDSA对玉米地上部和根部重金属的吸收积累有较明显的促进作用;螯合剂和AM菌根联合提高了单一接种AM菌根或者添加螯合剂时玉米对重金属的吸收积累量,强化了植物提取的效果;AM菌根改变了根际土壤中重金属的形态,菌根的存在使得重金属的形态由松结合态向紧结合态转移,降低了重金属的生物有效性及过量重金属对宿主植物的毒害。     

污泥土地利用对土壤中重金属形态的影响

土地利用是资源化利用城市污水厂污泥的有效途径，随污泥中的营养成分一起进入土壤中的还有其中的重金属元素，它们有可能成为一种环境安全的隐患。本实验所用的土壤为污泥经过无害化及稳定化处理后，与上海潮滩沙土按不同比例(干污泥质量比)混配而成。种植前后分别对沙土、污泥及混配土的重金属含量及形态进行测试。选择几种花卉植物，如菊花(Calendula officinalis）等进行植物种植试验，一个生长季后对植物中的重金属含量及形态进行测试。应用Tessler连续提取法，对污泥中的重金属进入土壤后，土壤中重金属的含量、赋存状态等方面的规律进行研究，发现污泥的土地利用会明显增加土壤中的重金属含量，而且重金属的形态也有明显的变化，可交换态和碳酸盐结合态的重金属含量有明显的增加；如长期使用，则必须采取相应的措施，以消除有害的影响。     

Influence of fertilizer and sewage sludge compost on yield and heavy metal accumulation by lettuce grown in urban soils

Previous research has demonstrated that many urban soils are enriched in Pb, Cd and Zn. Culture of vegetable crops in these soils could allow transfer of potentially toxic metals to foods. Tanya lettuce (Lactuca sativa L.) was grown in pots of five urban garden soils and one control agricultural soil to assess the effect of urban-soil metal enrichment, and the effect of soil amendments, on heavy metal uptake by garden vegetables. The amendments included NPK fertilizer, limestone, Ca(H₂PO₄)₂, and two rates of limed sewage sludge compost. Soil Cd ranged from 0.08 to 9.6 mg kg^–1; soil Zn from 38 to 3490 mg kg^–1; and soil Pb from 12 to 5210 mg kg^–1. Lettuce yield on the urban garden soils was as great as or greater than that on the control soil. Lettuce Cd, Zn and Pb concentrations increased from 0.65, 23, and 2.2 mg kg^–1 dry matter in the control soil to as high as 3.53, 422 and 37.0 mg kg^–1 on the metal-rich urban garden soils. Adding limestone or limed sewage sludge compost raised soil pH and significantly reduced lettuce Cd and Zn, while phosphate fertilizer lowered soil pH and had little effect on Zn but increased Cd concentration in lettuce. Urban garden soils caused a significant increase in lettuce leaf Pb concentration, especially on the highest Pb soil. Adding NPK fertilizer, phosphate, or sludge compost to two high Pb soils lowered lettuce Pb concentration, but adding limestone generally did not. On normally fertilized soils, Pb uptake by lettuce was not exceptionally high until soil Pb substantially exceeded 500 mg kg^–1. Comparing garden vegetables and soil as potential sources of Pb risk to children, it is clear that the risk is greater through ingestion of soil or dust than through ingestion of garden vegetables grown on the soil. Urban dwellers should obtain soil metal analyses before selecting garden locations to reduce Pb risk to their children.     

叶面施硅对水稻籽实重金属积累的抑制效应

采用盆栽方法,以硅酸钠和正硅酸乙酯为硅源分别配制纳米硅制剂,以水稻(Oryza sativa L.)品种"优优128"为供试植物,在Cd(5mg·kg-1、10mg·kg-1、50mg·kg-1三个水平)、Pb(200mg·kg-1)、Cu(250mg·kg-1)、Zn(300mg·kg-1)复合污染土壤进行种植,在水稻生长期内(苗期、分蘖期、抽穗期)进行叶面喷施纳米硅,研究纳米硅对水稻籽实生长状况及吸收重金属元素的影响,并对两种不同硅源的纳米硅的使用效果进行了比较。结果表明,随Cd污染质量分数增加,水稻百粒质量及单株穗质量均显著降低(P<0.01);Cd、Pb、Zn在籽实中质量分数均增高,而Cu在籽实中质量分数降低。金属元素在籽实中的吸收系数顺序为Cd>Zn>Cu>Pb,表明Cd极易向籽实中迁移。随土壤Cd质量分数增加,水稻籽实中各金属元素的积累量都有所降低。重金属复合污染条件下,叶面施用两种硅制剂均可以缓解水稻的毒害效应,且和施无机硅相比,施有机硅对水稻重金属毒害的缓解效果更显著。表现为叶面施用硅后,水稻百粒质量及单株穗质量均显著提高(P<0.05);且籽实中Cd、Pb、Cu、Zn的吸收量在喷施硅制剂后均显著降低(P<0.05);籽实中重金属元素的吸收系数和积累量均表现出降低的趋势。尤其是随着Cd处理质量分数的增高,施硅对重金属在籽实中积累的抑制效应越显著。这表明叶面施硅在重金属污染的水稻田污染防治中具有应用价值。文章所用的纳米硅制剂,制备简单,对于大面积推广硅肥极为有利。     

城市污泥中重金属镉对苏云金杆菌发酵的影响机制

为揭示苏云金杆菌（Bacillus thuringiensis,简称Bt）富集重金属的可行性,考察重金属对Bt发酵的影响,以生物毒性较大的重金属镉（Cd）为研究对象,以城市污泥为培养基,研究了添加Cd（II）对Bt生长和晶体蛋白合成的影响,分析了Bt发酵过程中Cd有效态质量浓度的变化,利用傅立叶红外光谱（FTIR）和X线光电子能谱（XPS）初步探讨了Cd（II）在Bt表面吸附的作用机制。结果表明：培养基中外加Cd（II）对Bt生长的影响主要取决于Cd有效态质量浓度,污泥培养基在支持Bt生长和降低重金属有效态质量浓度上均明显优于常规培养基;Bt对Cd（II）有较好的耐受性,当Cd有效态质量浓度在20 mg.L-1以下时,Bt能较好地完成生长代谢过程;光谱学分析表明Bt对Cd（II）有少量吸附,吸附位点主要为羟基,少量C=O基团也可与吸附反应,可有效降低重金属的生物有效性。     

南京东郊蔬菜种植基地地表水氮、磷、重金属含量及影响因素

南京东郊典型蔬菜基地地表水环境质量的调查分析表明:(1)在当前的生产和生活条件下,地表水尚未受Pb、Cu、Zn、Cd和Cr污染,但有不同程度的氮、磷污染。(2)河流氮、磷污染比池塘严重。河流水中氨氮和水溶性磷的比例相对较高,而池塘水中硝态氮、有机氮和有机磷的比例相对较高,这种差别有助于识别地表水中氮、磷的来源。河流底泥中总氮、总磷和重金属含量(Cr除外)比塘泥高,表明河水氮、磷及重金属污染风险比池塘水高。(3)南京东郊蔬菜基地地表水中氮、磷及重金属主要来自城市生活污水的排放,其次来自蔬菜栽培中有机肥过量投入造成的流失。因此,保护城郊地表水应从城市生活污水净化和蔬菜栽培中有机肥的合理施用入手。     

Heavy metals in contemporary Chinese sewage sludges

The heavy metal content in sewage sludges from a big Chinese city was investigated. Concentrations of zinc (Zn), lead (Pb), copper (Cu), chromium (Cr), nickel (Ni), cadmium (Cd) and mercury (Hg) in the sludges were 258–4050 mg kg^‐1, bd: 994 mgkg^‐1, 8.3–566 mg kg^‐1, 26.3–370mgkg^‐1 4.2–113 mg kg^‐1 0.9–6.4 mg kg^‐1 and 1.8–12.4 mg kg^‐1 respectively. The concentrations of Zn and Pb in the sewage sludges from the residential areas were higher than those in the mixed ones (from both residential and industrial areas). The concentrations of heavy metals in the flocculently dewatered sewage sludges were higher than those in the sediment of the centrifuged undewatered sewage sludges. After centrifuging, more than 60% of heavy metals remained in the sludge sediment with an exception of Cd. The content of organic matter, total phosphorus (T‐P) and total potassium (T‐K) in these sewage sludges was also measured.     

Thermische Schlammkonditionierung nach dem Porteous-Verfahren

In Nuremberg (Germany), each year about 25,000 tons (dry matter) of sewage sludge are obtained as by-product of waste water treatment. The digested sludge consists of 96% water. Until 1992 it was thermally stabilized using the Porteous procedure: the sludge was heated in an autoclave up to a temperature of 180–200 °C at a pressure of 28 bar. After pressure reduction and moving to a thickener, a substantial part of the liquid could be removed. After running through a chamber filter, the sludge contained only about 50% dry matter. This treatment does not only remove water; organic matter is also degraded or evaporated. Between November 1991 and May 1992, the sludge was analyzed four times before and after the drying process and examined for heavy metals (Pb, Cd, Cr, Cu, Ni, Hg, Zn), polychlorinated biphenyls (PCB) and PCDD/F. The concentration of heavy metals and PCB (related to dry matter) increased by a faktor of 1.3 after the drying process. This effect may be explained by the decrease of organic matter during drying. In the case of PCDD/F, the ITQ increased by a factor of 3.2, for some congeners even by a factor of 8. The only explanation can be that during thermal conditioning PCDD/F is formed by precursors as chlorophenols. This formation is probably catalyzed by metals as copper or nickel and sped up by the higher temperatures.     

重金属Cu,Pb,Zn,Cr,Cd在水稻植株中的富集和分布

研究了外源可溶性重金属进入水稻土环境后，在水稻植株中的迁移、在水稻植株不同部位的分布及其分布随时间的变化。在水稻生长季节，重金属在水稻植株中迁移能力的大小依次为：Cd,Cr＞Zn,Cu＞Pb。重金属在水稻植株不同部位的积累分布是：根部＞根基茎＞主茎＞穗＞籽实＞叶部。水稻分蘖期重金属在根部、茎干部和叶片的积累量达到最大，随着时间的延长，在根部积累的重金属愈来愈少；在茎干部积累的重金属在拔节期降至最小，随后含量又稍微上升；叶片上的重金属含量在拔节期迅速下降，随后趋于稳定。